Embodiments of the present disclosure are directed to MOCA networks including power-saving MOCA-capable devices. Each of the MOCA-capable devices is operable during a normal or active mode to perform the specific multimedia functionality for which the device is designed, such as to function as a digital video recorder (DVR) and content server, set-top box, and so on. Moreover, each of the MOCA-capable devices is also operable to automatically enter a low-power or standby mode, which reduces the power consumption of the device, when the device need not operate in the active mode. In this way, power savings in each of the MOCA devices results in overall power savings in the MOCA network. A global user-configurable low-power or standby mode parameter can be utilized to override the automatic standby mode operation if desired.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A MOCA-capable device, comprising: a MOCA port; MOCA-interface circuitry coupled to the MOCA port; a status register configured to store status information having a first value to indicate a normal operating mode of the MOCA-capable device and having a second value to indicate a standby mode of the MOCA-capable device; Ethernet-interface circuitry coupled to the status register, the Ethernet-interface circuitry including an Ethernet port and configured to detect whether an Ethernet cable is plugged into the Ethernet port and to change the value of the status information in the status register to the second value when no Ethernet cable is plugged into the Ethernet port; a MOCA processor coupled to the MOCA-interface circuitry, the Ethernet-interface circuitry, and to the status register, the MOCA processor operable to the detect the value of the status information stored in the status register and to place the Ethernet-interface circuitry into the standby mode responsive to the status information having the second value; and standby mode detection circuitry coupled to the Ethernet-interface circuitry, the standby mode detection circuitry including a manual standby mode device, and wherein the Ethernet-interface circuitry is further configured to change the value of the status information to the second value responsive to the standby mode detection circuitry detecting activation of the manual standby mode device.
2. The MOCA-capable device of claim 1 , wherein the MOCA-capable device comprises an Ethernet Adapter.
3. The MOCA-capable device of claim 1 , wherein the MOCA-capable device comprises a set-top box.
4. The MOCA-capable device of claim 1 , wherein the Ethernet-interface circuitry includes the status register.
5. The MOCA-capable device of claim 1 , wherein the standby mode device comprises a switch.
6. The MOCA-capable device of claim 1 further comprising: set-top box circuitry coupled to the Ethernet-interface circuitry; and a multimedia port coupled to the set-top box circuitry.
7. The MOCA-capable device of claim 1 , wherein the MOCA-interface circuitry comprises: analog front-end circuitry coupled to the MOCA port; MOCA PHY layer circuitry coupled to the analog front-end circuitry; and MOCA MAC layer circuitry coupled to the MOCA PHY layer circuitry and to the MOCA processor.
8. The MOCA-capable device of claim 1 , wherein the Ethernet-interface circuitry comprises: Ethernet PHY layer circuitry; and Ethernet MAC layer circuitry coupled to the Ethernet PHY layer circuitry and to the MOCA processor.
9. A method of lowering the power consumption of a MOCA-capable device, comprising: detecting whether the MOCA-capable device should operate in a normal mode or a standby mode by determining whether an Ethernet cable is plugged into an Ethernet port on the MOCA-capable device and determining whether a manual standby mode device has been activated; upon detecting the MOCA-capable device should operate in the standby mode, placing components in MOCA-capable device into low power modes of operation to thereby lower the power consumption of the MOCA-capable device relative to the power consumption during the normal mode of operation; storing a user-configurable standby mode parameter, the user-configurable standby mode parameter having a first value when the standby mode of operation of the MOCA-capable device is to be overridden; and when the user-configurable standby mode parameter has the first value, preventing operation of the MOCA-capable device in the standby mode even when detecting whether the MOCA-capable device should operate in a normal mode or a standby mode indicates the device should operate in the standby mode.
10. The method of claim 9 , wherein detecting whether the MOCA-capable device should operate in the normal mode or the standby mode comprises reading the value of information stored in a status register.
11. The method of claim 9 , wherein determining whether the manual standby mode device has been activated comprises detecting activation of a switch.
12. A MOCA-capable device, comprising: network device circuitry including Ethernet MAC layer circuitry and analog front end circuitry; and an integrated circuit coupled to the network device circuitry, the integrated circuit including: Ethernet MAC layer circuitry coupled to the Ethernet MAC layer circuitry in the network device circuitry; MOCA PHY interface circuitry; a status register configured to store status information having a first value to indicate a normal operating mode of the MOCA-capable device and having a second value to indicate a standby mode of the MOCA-capable device; and a MOCA processor coupled to the MOCA interface circuitry and to the Ethernet MAC layer circuitry and the status register, the MOCA processor operable to place the Ethernet MAC layer circuitry into a standby mode of operation in response to status register storing the second value.
13. The MOCA-capable device of claim 12 , wherein each of the network device circuitry and the integrated circuit further comprise an Ethernet PHY layer circuit, and wherein the Ethernet MAC layer circuitry of the integrated circuit is coupled to the Ethernet MAC layer circuitry in the network device circuitry through these Ethernet PHY layer circuits.
14. The MOCA-capable device of claim 12 further comprising standby mode detection circuitry coupled to the network device circuitry, the standby mode detection circuitry including a standby mode device and the network device circuitry configured to deactivate the Ethernet MAC layer circuitry contained in the network device circuitry responsive to activation of the standby mode device, and wherein the Ethernet MAC layer circuitry in the integrated circuit detects the deactivation of the Ethernet MAC layer circuitry contained in the network device circuitry and changes in response thereto changes the value stored in the status register to the second value.
15. The method of claim 14 , wherein the standby mode device comprises a pushbutton switch.
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June 6, 2013
January 26, 2016
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